计算机技术与发展
計算機技術與髮展
계산궤기술여발전
COMPUTER TECHNOLOGY AND DEVELOPMENT
2013年
11期
258-261
,共4页
多小区协作系统%长期演进%系统仿真%频谱效率
多小區協作繫統%長期縯進%繫統倣真%頻譜效率
다소구협작계통%장기연진%계통방진%빈보효솔
multi-cell cooperation system%LTE%system simulation%spectral efficiency
基于对移动通信宽带化的认识,3GPP组织启动了LTE( Long Term Evolution)演进项目。 LTE-Advanced作为LTE的进一步演进版本,提出了很多新的关键技术,协作式多点传输( Coordinated Multiple Point ( CoMP) Transmission/Recep-tion)技术就是其中之一。该技术通过多个小区之间的联合调度或协作传输,降低邻区干扰,提高用户接收信号质量。文中通过对多小区协作系统传输模型的分析,设计并搭建了多小区协作系统仿真平台,主要包括网络拓扑结构, Wrap-around,大/小尺度衰落,链路干扰分析,自适应调制编码,预编码方案。在不同模式下,对系统进行了仿真与分析,结果表明该系统可以有效提高小区平均和小区边缘的频谱效率。
基于對移動通信寬帶化的認識,3GPP組織啟動瞭LTE( Long Term Evolution)縯進項目。 LTE-Advanced作為LTE的進一步縯進版本,提齣瞭很多新的關鍵技術,協作式多點傳輸( Coordinated Multiple Point ( CoMP) Transmission/Recep-tion)技術就是其中之一。該技術通過多箇小區之間的聯閤調度或協作傳輸,降低鄰區榦擾,提高用戶接收信號質量。文中通過對多小區協作繫統傳輸模型的分析,設計併搭建瞭多小區協作繫統倣真平檯,主要包括網絡拓撲結構, Wrap-around,大/小呎度衰落,鏈路榦擾分析,自適應調製編碼,預編碼方案。在不同模式下,對繫統進行瞭倣真與分析,結果錶明該繫統可以有效提高小區平均和小區邊緣的頻譜效率。
기우대이동통신관대화적인식,3GPP조직계동료LTE( Long Term Evolution)연진항목。 LTE-Advanced작위LTE적진일보연진판본,제출료흔다신적관건기술,협작식다점전수( Coordinated Multiple Point ( CoMP) Transmission/Recep-tion)기술취시기중지일。해기술통과다개소구지간적연합조도혹협작전수,강저린구간우,제고용호접수신호질량。문중통과대다소구협작계통전수모형적분석,설계병탑건료다소구협작계통방진평태,주요포괄망락탁복결구, Wrap-around,대/소척도쇠락,련로간우분석,자괄응조제편마,예편마방안。재불동모식하,대계통진행료방진여분석,결과표명해계통가이유효제고소구평균화소구변연적빈보효솔。
Based on the awareness of broadband mobile communications,3GPP started the LTE (Long Term Evolution) Project. As the further evolution of LTE,LTE-Advanced introduced a lot of new key technologies. Coordinated Multiple Point ( CoMP) Transmission/Reception technology is one of them. By joint operation or collaboration transmission for more than one cell,reduce interference with ad-jacent areas,thus improving the quality of the user receiving signal. In this paper,analysis of multi-cell cooperation system model,con-struct a system level simulation platform which includes network topology,Wrap-around,large/small-scale fading,link quality,AMC and pre-coding scheduling. Simulations under different situations are done,and it shows that multi-cell cooperation system can effectively improve spectral efficiency.
